Spectroil Series are easy to use, reliable and the workhorses of commercial and military oil analysis laboratories that require the rapid analysis of wear metals, contaminants and additives in lubricants. It measures trace quantities of elements dissolved or suspended as fine particles in natural or synthetic petroleum based products using the time-tested and reliable rotating disc electrode (RDE) technique.

The Spectroil is the ideal spectrometer for the in-service oil analysis laboratory because technology has made it smaller and the addition of an innovative CCD optical system has made it more flexible for even the most exotic in-service oil analysis applications. The standard configuration is equipped and calibrated for 22 wear metals, contaminants and additives. Additional elements can be added at any time, even in the field and if your application suddenly calls for unusual elements such as niobium, lithium or rhodium. An external computer with current Windows software controls the system. The additional capability to analyze engine coolants is available as an option.

The Spectro LNF Q200 series applies the world’s best oil particle counter technology. With an intuitive, configurable GUI and no calibration required, the Q200 series is fast, accurate and easy to use.

Sample preparation is efficient with the LNF. Viscosities up to 320 cSt can be processed without dilution due to the wide dynamic range. And unlike conventional light blockage particle counters, there are no flow control valves that need adjusting when testing different sample viscosities.

The advanced design makes it much more than just a particle counter: The LNF also calculates free water in ppm, and differentiates contaminants. Several models are available providing particle counts and codes, abnormal wear classification and ferrous wear measurement.

Ferrous wear measurement is a critical requirement for monitoring machine condition. The high sensitivity magnetometer measures and reports ferrous content in ppm/ml, and provides ferrous particle count and size distribution for large ferrous particles. The in-line design of the magnetometer with the LNF flow cell enables measurement of both ferrous content and total particle count on the same sample, eliminating the need to measure Ferrous content on another instrument.

T2FM Q500 Analytical Ferrography Laboratory is a complete analytical system for the separation and interpretation of wear and contaminant particles in used lubricant oils, hydraulic fluids, coolants and fuels. It consists of the T2FM Ferrogram maker, a bichromatic microscope, video camera and image capture software. The SpectroT2FM Q500 is fast because there is no delay time as sample is pumped through plastic tubing before reaching the ferrogram surface. The T2FM delivers the entire sample and all the particles contained therein onto the ferrogram surface. A crystal clear rinse is obtained without fail for every ferrogram. There are no last minute drips of oil sample onto the ferrogram leaving distracting halos around the particles when viewed under the microscope.
A bichromatic microscope is used to view and examine ferrograms made with the SpectroT2FM Q500. The bichromatic microscope is equipped with both reflected (red) and transmitted (green) light sources so that the ferrogram may be illuminated from both above and below the microscope stage. With bichromatic illumination, metal particles, which reflect light, appear bright red, whereas nonmetallic particles appear green because light transmits through them. A video camera connected to a computer displays, prints, stores and retrieves ferrographic images. Comparison of old ferrograms with ferrograms from recent lubricating oil samples allows determination of evolving wear modes inside a machine or engine.
Features & Benefits

The FluidScan® Q1100 provides direct quantitative measurement of a lubricant’s condition and plays an important role in Machine Condition Monitoring (MCM) for proactive and predictive maintenance in Reliability Management programs. It determines when oil needs to be serviced due to degradation of the oil chemistry or contamination by other fluids such as water or the wrong oil.

The FluidScan now includes an innovative test methodology for both dissolved and free water, a practical alternative to more complex tests such as Karl Fischer titrations.

Accurate determination of oil degradation

The FluidScan correlates to TAN and TBN measurements made with the ASTM D664 and D4739 titration methods.

It is compliant with ASTM D7889 “Standard Test Method for Field Determination of In-Service Fluid Properties Using IR Spectroscopy.”

It also fulfills the National Emission Standards for Hazardous Air Pollutants for Reciprocating Internal Combustion Engines (NESHAP RICE) requirements for extending oil change intervals in engines and back-up generators when used in conjunction with the Spectro Q3050 Portable Viscometer.

The portable Q1100, when used in conjunction with OilView software, enables route based oil analysis, which integrates with other widely used predictive maintenance technologies such as vibration and thermography. The Q1100 plays an important role in predictive maintenance and Machinery Health™ management by measuring water, total acid number (TAN), oil oxidation, glycol, total base number (TBN) and other parameters. In addition, the unit’s patented flip-top design speeds test preparation and cleanup.

The route-based capability of the FluidScan® Q1100’s operation allows the device to virtually eliminate mislabeled samples and long wait times for laboratory analysis. Furthermore, results highly correlate to TAN and TBN laboratory tests conducted with ASTM D664 and D4739 titration methods and water tests with the ASTM D6304 Karl Fischer Titration Method.

The TriVector™ is a simple representation of the integrity of the lubrication system and the health of the machine itself. The Trivector indicates the degree of health in each vector. In order to understand the Trivector condition, one must measure the key physical and chemical parameters of the oil.

The MiniLab 53 combines three simple tests that take less than 10 minutes to complete

OilView™ LIMS asset management software

The Minilab 53 uses the AMS OilView LIMS module to operate the MiniLab. The OilView software includes an Asset Management database and a reference oil database which can be expanded by the end user.

It provides several standard and configurable report formats with automatic email distribution of reports, and alarm limit templates and analytics.

The MicroLab, originally developed by On-Site Analysis, has an embedded expert system which translates all of the analytical data into maintenance actions specific to your equipment. The artificial intelligence of the system is built from over 20 years of industry knowledge and more than 10,000 rules statements to generate the diagnostic statements that are specific to each application, the type of equipment and the type of oil.

Monitoring lubricant condition in machine wear when and where it is needed significantly reduces the time required for laboratory analysis and improves machine reliability. Spectro Scientific offers a wide range of portable devices with field simplicity and lab accuracy. The product combinations are powerful for different applications as together they provide more comprehensive analysis of oil condition, contamination and machine wear condition. All Spectro portable devices are battery powered, use small amounts of oil, and do not require solvents or chemicals to clean. They are light weight and ideal for field use.

The building blocks of the combination kit are the FluidScan 1000 Series handheld IR oil analyzer, MiniVisc 3000/3050 kinematic viscometer, and FerroCheck 2000 total ferrous magnetometer.

Basic Oil Analysis Kit: A quick check with viscosity and ferrous particle concentration in the field is the simplest way to make sure oil is good and machine wear is within alarm limits. With FerroCheck 2000, users can quickly check ferrous particle concentration up to 1%. It is a complimentary device to the MiniVisc 3000 and together they provide basic oil analysis needs for field service professionals.

Cooling systems play a vital role in preserving the overall engine heat balance and in protecting engine components against corrosion and other problems.Machinery Lubrication magazine estimates that 60% of engine downtime in the commercial sector is cooling system related.

The Q6000 Fuel Dilution Meter (FDM) is a portable fuel dilution meter that can be used in the laboratory or in the field to provide rapid and accurate measurements of fuel contamination in engine oil.

The Q6000 was designed with a patent-protected sampling method using an innovative “fang” design. The sampling occurs using a headspace system with repeatability of <+5 percent RSD up to 15 percent fuel content. The headspace vapor sampling approach also eliminates the need to heat fuel-laden samples and does not require the use of solvents.

Developed in collaboration with the U.S. Navy, the Q6000 detects contamination in less than two minutes, allowing operators to make immediate decisions. The device requires just a small sample size in a disposable vial. The analysis results are displayed in percent fuel so operators can make rapid decisions about maintenance actions. In addition, the intuitive touchscreen and audio prompts guide the operator through the testing process.

MINIFLASH TOUCH is a uniquely designed flash point tester for the determination of flashpoints of liquids and solids, using the Grabner flash point detection method of measuring the instantaneous pressure increase inside the continuously closed chamber, triggered by an energy-controlled electric arc. Heating the test chamber from the top avoids condensation of high volatile compounds, significantly improving the test results. Its continuously closed cup design and small sample volume of only 1-2 mL offers maximum safety, avoids offensive fumes in the testing area and reduces sample waste. The fast thermoelectric cooling at the end of a test and the fast and easy handling of the instrument save expensive labor time.

The full color touch-screen of the MINIFLASH TOUCH runs on Microsoft® Windows® software and features an intuitive menu navigation that requires no training for flashpoint testing. Along with its convenient touch screen design, the MINIFLASH TOUCH offers an extended temperature range from 0 to 400°C, hassle-free communication with USB, Ethernet, LIMS and PCs and nearly unlimited storage capacity for programs and results.

MINIFLASH determines the flash point according to ASTM D6450 and according to the advanced ASTM D7094 standard. This procedure describes the “Standard Test Method for Flash Point by Modified Continuously Closed Cup (MCCCFP)”, which offers the highest repeatability and reproducibility and an excellent correlation to the D93 Pensky-Martens method: “There is no statistically significant bias observed between ASTM D7094 and ASTM D93 Procedure A” as concluded during the last Round Robin. Furthermore, test results are equivalent to other well known standards such as Abel and TAG, and thanks to its unique design MINIFLASH can be used for more difficult applications such as flash-point testing of contaminated samples like diesel fuel in lube oil or gasoline in diesel fuel and for biodiesel testing.

The new MINIFLASH TOUCH analyzer also includes improved methods for simulation of EN ISO 3679 and EN ISO 3680. Due to true portability and rugged housing, the MINIFLASH TOUCH is also the perfect solution for mobile labs and military applications.

With over 3,500 oil and grease monitors in world-wide use today, InfraCal 2 Analyzers, originally developed by Wilks, have become a standard for the petrochemical industry. These essential tools ensure that oil content levels are below the regulated limit in water, drill cuttings, and soil.

Both the InfraCal 2 TRANS-SP and InfraCal 2 ATR-SP are recommended for measuring oil in water, TPH in soil or FOG in wastewater.

MODELS

INFRACAL 2 ATR-SP

INFRACAL 2 TRANS-SP

MDL Water

0.3 ppm

0.1 ppm

MDL Soil

3 ppm

1 ppm

Solvent

Hexane, cyclohexane, Vertrel MCA

Perchloroethylene, S-316

Method Complies

ASTM D7066 EPA 413.2
EPA 418.1

Method Compares

EPA 1664
ISO 9377-2

EPA 1664
ISO 9377-2

The InfraCal 2 Analyzers for measuring oil in water or soil can be used for a number of different applications. Our primary applications are listed below:

The fact that InfraCal Analyzers over 10 years old are still operating in the corrosive environment of offshore oil rigs attests to their rugged, dependability. The analysis procedure takes less than 15 minutes and can be done by minimally trained personnel. They use field proven infrared technology for measuring oil in water, oil content in drilling mud or drill cuttings, TPH (total petroleum hydrocarbons) in soil and FOG (fats, oil and grease) in wastewater.

The new InfraCal 2, the latest introduction to our easy to use analyzers, uses the same measurement technology as our InfraCal TOG/TPH Analyzers with added features such as data storage and transfer, multiple calibrations and password protection for instrument settings. The InfraCal Analyzers are stand-alone fixed filter infrared instruments that give results that are comparable to EPA 1664 and ISO 9377-2 and comply with ASTM D7066, EPA 413.2 and 418.1.

MINIVAP VP Vision is a highly versatile portable vapor pressure tester that features best-in-class precision and a pressure range of 0-2000 kPa. It is the first analyzer that demonstrates excellence in engineering by earning certificates for robustness and durability. Based on Grabner´s cutting-edge Cockpit™ technology, the instrument offers unmatched networking capabilities and enables worldwide access to analyzers.

Engineered for Excellence

MINIVAP VP Vision measures gasoline, jet fuel, crude oil, LPG and solvents. The analyzer provides a wide pressure range of 0 – 2000 kPa, without compromising precision. Long-term testing has demonstrated an unmatched repeatability of less than 0.2 kPa. The newly developed Grabner 2D-Correction™ (273 points) and exact piston positioning guarantee that accurate and precise results are received over the full measuring range. MINIVAP VP Vision incorporates Grabner´s Sampling Pro™ valve design, which during ruggedness tests proved to be the best-in- class piston based design for minimizing cross contamination between various sample types.

Access. Anywhere. Anytime.

With the Cockpit™ PC software multiple instruments are automatically recognized and devices all around the world can be configured, monitored, diagnosed, serviced and upgraded from one central lab. The software can be accessed through a secure VPN tunnel, allowing for true mobile access to instruments from any place at any time. A unique call home function facilitates easy uplink to our well trained support team.

While the standard VP model is designed to sustain pressures up to 20 bar, some applications require increased measurement sensitivity for samples with a very low volatility. These applications include e.g. the measurement of Diesel, Oils or Flavors & Fragrances. The MINIVAP VPL Vision model is designed for low volatility measurements up to 150 kPa (21.8 psi). It shows a measuring repeatability better than 0.1 kPa for low volatile samples.

The model MINIVAP VPL Vision was developed to automate the manual ASTM D2879 Standard Test Method for Vapor Pressure by Isoteniscope for low volatile samples, which is used by the chemical industry. The instrument incorporates a direct and an extrapolated “VOC” method for absolute vapor pressure measurement of single- and multi-component samples.

The direct “VOC”-method is a static method for determining the absolute vapor pressure required for safety data sheets. The indirect method additionally allows to extrapolate to extremely low pressures or to temperatures that exceed the instruments temperature range (-100°C to +300°C). Both methods yield results comparable to the static ASTM D2879 Isoteniscope method, but do not require sample evacuation prior to testing. Based on the GRABNER Triple Expansion Method, air/gases are removed automatically from the measurement result and the sample composition is maintained during measurements.

“VOC”-methods are available in both the MINIVAP VPLand the VP Vision analyzer. Because of a better sensitivity for low volatile samples, the precision of the VPL Vision is significantly better in the pressure range of 0.1 to 30 kPa.

compounds. MINIVAP is the world wide standard instrument that is used by all major refineries, oil and pipeline companies, independent laboratories and car manufacturers. The US-EPA declared MINIVAP as the official reference instrument for the USA. MINIVAP VPS/H are stand-alone units that do not require any accessories. The unique piston based design
for automatic sample introduction and volume expansion of the measuring cell makes an expensive and bulky vacuum pump unnecessary. The Grabner measuring principle in combination with the latest standards ASTM D6377 (for Crude Oil) and ASTM D6378 (for Gasoline) avoids tedious sample chilling and air saturation. This new technology significantly increasesrefinery profits: it reduces expensive labor time, eliminates operator bias and has considerably improved test precision that offers the advantage to blend closer to the limits and avoid product give-away. MINIVAP VPS is mostly used for QC purposes while VPXpert and VPSH offer even more features for crude oil and R&D applications, like volatility studies at elevated temperatures and at very low vapor/liquid ratios.

Introducing a more user friendly and robust titrator combined with the latest touch screen/swipe technology. User friendly is a common phrase bounced around in many different industries. It is easy to say but not always true! Processes in the work place should be made as easy as they can to improve productivity and operational efficiency.

50 shortcuts can be saved to the Homepage to quick start favourite methods

Continuous dosing operation for manual titrations

There are many complex methods within all industry types in the titration world, therefore introducing a more user friendly and robust potentiometer combined with the latest touch screen technology, is the perfect combination. PAT940 utilises the latest capacitive touch screen technology, what does that mean? This is the technology that your smart phone uses.

The MINISCAN IRXpert is the first completely portable multi-fuel analyzer for Gasoline, Diesel, Jet Fuel and Biofuel Blends, which uses the advantages of full spectrum information and full spectrum comparison to achieve utmost measurement accuracy. More than 100 fuel parameters are accurately determined by scanning the complete spectrum with superior resolution. Based on Grabner Instruments profound knowledge in fuel analysis, the MINISCAN IRXpert is designed as an intelligent, self-learning analyzer.

The MINISCAN IRXpert is a completely temperature regulated, robust and user friendly spectrometer for the automatic measurement of concentration of the most important components of gasoline and diesel. Advanced chemometrics, a worldwide database of calibration samples and information derived from the complete spectrum rather than from specific peaks provide highly reliable results for concentration measurement and key properties such as Octane and Cetane Numbers, Distillation Properties and Vapor Pressure. An integrated temperature controlled density meter allows for exact determination and stability of fuel density.

NEW! Data based on real samples collected and analyzed by SGS®!

For predicted properties, MINISCAN IRXpert operates calibration data, that has to adhere to the strictest quality standards. As a unique feature the instrument is equipped with a database of samples that have been collected and analysed by SGS!

Maximizing Ease of Use

MINISCAN IRXpert for testing fuels right from the street. A high end full color touch-screen facilitates menu navigation and allows in depth spectrum analysis. USB and Ethernet interfaces facilitate quick data-transfer, printing, LIMS integration and remote control and service. For field use, the MINISCAN IRXpert can be run with a 12V car adapter.

The ParaFuel™ NIR Process analyzer from LT Industries provides comprehensive inline analysis of Diesel, Gasoline, Jet Fuel, Kerosene, Crude Oil, Blending components and Blended Fuels for a wide range of critical properties including Octane, Distillation Points or RVP. The analyzer is also available in a benchtop version designed to improve efficiency when testing in laboratories.

Validate Fuel and Crude Oil Quality

With the ParaFuel™ analyzer, accurate measurement of the properties of petrochemical products and crude oils is easy. Whatever the analytical need – inspection of crude oil or finished products, inline property measurements, or validating shipments – the ParaFuel™ can do the job. The optical analysis technique allows for easy integration and rapid inline measurement. ParaFuel™ Process Systems measures key chemical and physical properties rapidly and accurately directly in process, to monitor changing process conditions in real time and to adjust as necessary. The simple test procedure allows for greater experimental repeatability — and it does not require special operator skills.
Inline Testing of up to 20 measuring points
With the capability to measure 20 points with a single analyzer, you can validate quality and performance at all stages — from crude samples at the well to downstream refining. Improve your process knowledge and control.

Measure in process or in the laboratory

The ParaFuel™ Process Analyzer comes complete with probes and flow cells built to suit your measurement needs. They are available in a variety of lengths, configurations and materials depending on your measurement requirements. High pressure and temperature sampling probes can withstand the conditions associated with oil production and refining. Instruments are designed for direct integration into existing control systems via the LTBus automation & communication software. The ParaFuel™ Analyzer can communicate directly via standard protocols such as Modbus and 4-20mA. The ParaFuel™ Benchtop System provides the same high quality measurements as the process system.

This true atmospheric distillation analyzer is extremely compact, portable and light weight and operates as a fully stand-alone unit. Designed for the quick and accurate quality control in laboratories and in the field, a distillation run on light products takes just 15 minutes and requires as little as 6 mL of sample. Because of its small size, the portable mini-distillation apparatus is the ultimate solution for places where limited or no lab-space is available.

MINIDIS ADXpert uses full automation from sample introduction to heating regulation, vapor temperature registration, volume measurement in the receiver compartment and calculation of the distillation curve from the raw data obtained during the test. This way it achieves the highest levels of accuracy, repeatability and reproducibility. The automatic operation involves simply inserting the filling tube into the sample container and pressing “RUN”. No sample preparation like cooling is necessary; neither special programming of the test conditions or prior distillation knowledge is required. Fully automatic cleaning programs and the use of inexpensive and disposable sample cups guarantee highest productivity and eliminate the need for manual cleaning of glassware.

MINIDIS ADXpert performs according to ASTM D7344, the New Mini-method for the Distillation of Petroleum Products at Atmospheric Pressure and generates detailed D86 test reports. The distillation apparatus has a resolution almost twice as good as D86 distillation units, yielding results that are well within ASTM D86 r/R requirements. The extremely versatile unit allows precise testing of various gasoline, jet fuel and diesel products (groups 0-4), biofuels, solvents, aromatics, organic liquids, chemicals and contaminated or blended samples.

Revolutionizing ASTM D86 Testing

The automatic distillation analyzer MINIDIS ADXpert is revolutionizing ASTM D86 testing. It is a true atmospheric distillation analyzer in an extremely small format. The automation significantly improves the repeatability and the reproducibility of the highly precise results. The MINIDIS offers a detailed ASTM D86 compliant report and prints and/or transmits the results via a serial PC link.

Outstanding: Highest Safety

Broken glassware is one of the major reasons for fire hazards experienced when distilling with glass flasks. Because of the rugged metal housing, the sealed metal distillation cycle and the small sample volume, the MINIDIS ADXpert does not need a fire protection system. Cheap and durable metal sample cups instead of expensive glass flasks significantly reduce consumable costs and make the MINIDIS ADXpert a perfect solution for distillation testing within challenging environments.

Full Automation for Highest Productivity

The MINIDIS ADXpert provides a complete distillation run and test report in 15 minutes (for gasoline) using only 6 mL of sample. The automatic operation involves simply placing the filling tube into the sample and pressing “RUN”. No special programming of test conditions or prior distillation test knowledge is required. With the automatic sample introduction, the pre-programmed rinsing cycle and the use of disposable sample cups, any test preparation or manual cleaning of glass parts is avoided.

Classical D86 distillation analyzers often encounter so called “problematic” samples. Mining solvents, condensates and raffinates for example cannot be measured by a D86 analyzer in
most cases. MINIDIS ADXpert incorporates a versatile temperature control for a very small sample volume, which allows easy and fast heater adjustment. So even “problematic” samples can be distilled until the final boiling point is reached! The highly accurate volume detection system allows for precise and repeatable analysis of Biofuels and vegetable oils mixtures.

MINIDIS ADXpert features true portability, the rugged housing and optional 12V vehicle battery operation, making it the perfect solution for all kinds of applications, where standard laboratory instrumentation can not be applied – such as measurements in the field or in mobile laboratories.

PILODIST 107 is an easy to handele solvent recovery system for extremely pure solvents.
The solvent mixtures are side products of extraction’s, washing processes, chemical and biochemical reactions, chromatographic operations in clinical range, especially in anatomical and pathological institutes.
Solvent Recovery Unit with Concentric-Tube-Column.
The system is equipped with a concentric-tube-column, i.e. highest separation efficiency and high load ranges.

The processor controlled crude oil distillation system includes control of heating and vacuum as well as the display and storage of all important process values: The design is based on the distillation of a charge of 10 – 20 kg of crude oil in a minimum of time with a high throughput until a final temperature of 400 °C AET.

Temperature of heating bath (PT 100)

Temperature of product in flask (PT 100)

Temperature of vapor (PT 100)

Pressure of distillation (0-100Torr)

The crude oil is charged into a stainless steel flask and heated by an electrical heating bath. All vapors are passing through a stainless steel column and are condensed in an integrated vertical condenser. An additional high performance condenser which is located on top of the column construction is required to condensate all remaining light boiling components.

All condensed product is being discharged by means of a tempered gear pump into a tank (receiver) or a fraction collector. The discharge process is being performed independent from the current system pressure (atmospheric or vacuum) to avoid any manual discharge in between the different pressure conditions.

The whole processing of the distillation can be visualized all the time by glass connecting pieces, a viewing glass in the flask, condenser and glass intermediate discharge receiver, located between pump and column. The distillation is performed in several pressure steps (atmospheric and vacuum) until a final atmospheric equivalent temperature (AET) of 400°C. Once the final temperature is reached and distillation is

Following an increasing demand for crude oil distillations to analyze small quantities in a short period of time PILODIST has modified the existing HRS 500 system to be applied for the purpose of crude oil distillation at a very attractive price.

Although the distillation column is packed with Propak 316 and the controller allows to perform all required distillation runs (atmospheric and vacuum 1 – 3) the system is similar but not strictly designed according to ASTM D-2892 – standard.
The system can be operated alternatively with fraction collector or with the
intermediate receiver for larger cut volumes as well as the determination of the actual distillation rate. Both collection systems are included in the scope of supply.

The purpose of this system is to get a quick analysis of the composition of crude oil for further decisions.

The crude oil distillation system is designed to work in semi-automatic operation mode and combines all required features of PETRODIST 100 S, PETRODIST 200 S and PETRODIST 300 M in a single system in the most economical way. One distillation procedure can be used at a time (alternatively but not simultaneously) by using the following central components which are used by all distillation methods. These common devices include the fraction collector (not for D-1160), central controller and laptop, vacuum supply and cooling thermostat.

The capacity of the fraction collector can be verified depending on the flask volume by exchanging the insert construction to allow either 18 receivers of 500 mL or 9 receivers of each 1 L.

All distillation results can be entered into an Excel file to be stored as well as for calculation of final results and printout of a distillation curve.

Processor controlled combined crude oil distillation system for fully automatic operation according to ASTM D-2892 (TBP) and ASTM D-5236 (Potstill). PETRODIST 400 CC is a combination of the following systems:

PETRODIST 100 CC (ASTM D-2892)

PETRODIST 200 CC (ASTM D-5236)

Both systems can operate at the same time (simultaneously) in fully automatic, uninterrupted and unattended mode.

The data evaluation software provides also a combined TBP-curve for both systems.

Compact design with control system and safety items for unattended operation. No operator intervention and no intermediate stops are required.
All necessary accessories will be supplied together with the system. The installation requires water, nitrogen, compressed air and electricity.

The system enables to perform TBP- and Potstill – distillations of various crude samples according to ASTM-standards and is designed for laboratory use.

The system is equipped with a central computer control, vaccum supply and thermostate system, data storage and evaluation station as well as a fraction collector, designed to serve for both distillation systems simultaneously and provides direct automatic distillation flow rate control.

The fraction/receiver changes are automatically performed according to preselected cut temperatures or in case of receiver overfilling. Both systems are equipped with individual fraction collectors to allow simultaneous operation of both systems. The final data and the TBP-curve in wt% and vol% are printed out after reweighing the residue.

The unit requires water, nitrogen, compressed air and electricity. Dry ice or liquid nitrogen is required for cold traps.

This new edition is summarizing our long term experience and taking into account all our customers feedbacks for improved performance and even more easy handling and reduced service necessity. The new design specifically highlights the high viscous residues that are being processed in this system by guaranteeing a continuously operating tempered discharge into an open fraction collector with automatic and precise weight measurement.

The system is designed for fully automatic operation and evaluation. No user intervention required during the distillation process. Data station for data input as well as for display and print out of all operation parameters, distillation results and distillation curve.

The weight of each fraction is automatically taken by an integrated precision electronic balance.

The product is being discharged by means of a heated hermetically closing discharge pump. The fraction changes are carried out automatically, alternatively according to a pre-selected boiling temperature or distillate weight or when the receivers are filled up. The fraction collector contains 20 receivers. The boil up rate is controlled according to a pre-selected distillation rate in g/min. An accurate vacuum control guarantees the required stability of the distillation pressure.

Vacuum System to improve automatic pressure reduction, following the dynamic vacuum pressure procedure described on method ASTM D 5236.

All necessary accessories will be supplied together with the system. The installation requires water, nitrogen, compressed air and electricity.

Crude oil distillation system for semi-automatic operation exactly according to ASTM D-2892 (TBP).

The system is designed for automatic operation within each of the following distillation runs:

Debutanization

1. run at athmospheric pressure

2. run at vacuum 100 Torr

3. run at vacuum 10 Torr

4. run at vacuum 2 Torr

After each run, the system stops automatically and the flask temperature has to be cooled down prior to the next distillation run. The operator has to enter the parameters for the next run to restart operation. The system contains a vacuum tight automatic fraction collector with 9 receivers for each run, which have to be replaced after each distillation run. The receiver change is performed according to pre-selected boiling temperature or when a receiver is filled up.

Fully automatic crude oil distillation system, processor controlled according to ASTM D-1160 for the determination of boiling ranges of crude oil products under vacuum. The system can be operated in strict accordance to the ASTM procedure with 1 single receiver or alternatively, by using the automatic fraction collector, with 4 receivers.

Key Features

Parameter input, display as well as calculation of distillation and final data and print out of the distillation curve via PC

Easy operation due to userfriendly software, operated under WINDOWS XP

Sophisticated safety system

Automatic heating and distillation rate as well as detection of initial boiling point (ibp)

Individual distillation reports and curves can be re-called any time

Precise distillation data due to automatic calibration of volume measuring system

Anti foaming by foam breaker

Precise vacuum control

Automatic washing run

Calculation of charge according to receiver temperature and charge density

Easy installation effort as the system is delivered ready for operation

Manual override of automatic operation

Automatic controlled termination of distillation process and start of cooling

automatic fraction collector with 4 receivers (Petrodist 300CC-F)

The distillation is fully automatic from the initial boiling point to the pre-selected end boiling point or detected break-off. The criteria for break-off are:

The pre-selected final AET (atmospheric equivalent temperature) is reached

The maximum bath temperature is reached

The maximum flask temperature is reached

The pre-selected distillate volume is reached

The flask insert cracks

The distillate pressure drops

Product lack in the flask

The distillation volume is measured automatically in receivers, temperature controlled by an IR-heater. The yield is calculated in percentage to the charge quantity. Distillation report, final data and distillation curve are printed out.

There are manual, semi-automatic and full-atomatic models of Petrodist 300 Series. Fractional collecter is provided with 300CC-F model.

The system is designed for fully-automatic operation conforming to ASTM-D1120 to determine very precise and reproduceable the boiling point of engine coolants and brake fluids.

A complete test can be done in approx. 8-15 minutes. An indelible print out with all results is peformed automatically and additionally a PDF-file can be created for network connectivity.

PILODIST 1120 CC can be operated in different measuring modes to be selected via an integrated touchpanel. All parameters are indicated during the measuring process as well as the results. The basically included test methods are:

REFLUX BOILING POINT (ASTM-D1120)

EQUILIBRIUM REFLUX BOILING POINT (SAE-J1704)

As a special feature there is an additional software available for measurements also the following characteristics according to SAE-J1703 & J1704:

The system has been designed to operate under atmospheric as well as vacuum conditions down to 1 Torr in continuous and discontinuous (batch) mode by using either a circulation evaporator with level sensors or a distillation flask with electrical heating mantle. This specific system is completed with an automatic fraction collector which operates 10 receivers. It is designed with 4
distillation columns with silvered high-vacuum mantle and packed with SULZER packing and additional electrical column heating mantles to ensure adiabatic operation.

PILODIST 250 systems are designed by our engineering team according to specific customer needs to fulfill specific research or training projects. The variable includes the number of distillation columns, type and diameter of distillation column (bubble cap tray column or packed columns) for different throughputs, the number of feed and product take-off (discharge) points just to mention some criterias, all details being engineered depending on the job definition.

Fully Automatic Test Equipment for Measurement of Lubricity of Aviation Turbine Fuels by the Ball-on-Cylinder Lubricity Evaluator according to ASTM D-5001.

The BOCLE-equipment according to ASTM D-5001 measures the actual wear scar size with a test ball specimen. The wear scar is generated by the friction between the stationary ball and a rotating cylinder. A part of the rotating cylinder is immersed in the turbine fuel tank (50 ml) and covered with the turbine fuel. The temperature of the fuel tank is controlled, as well as the relative humidity of the air which is circulated into and above the test fluid – the air flow rate is controlled, too. The Test Ball is loaded by a constant weight for the test period 30 min. After the test the minor & major axis of the resultant wear scar are measured with a microscope. The wear scar defines the lubricity of the aviation turbine fuel or other liquids.

The Sindie® 7039 Benchtop model is specifically designed for fast batch testing from 0.15 – 3000 ppm (wt.) sulfur fuel samples at petroleum pipeline terminals, refineries, and test laboratories. The unit is compact and fits on any lab bench with an easy-to-use and robust design for industrial and laboratory use with minimal maintenance. The Sindie ® analyzer has many advantages over competing technologies. The analyzer has exceptional signal-to-noise using monochromatic excitation of the X-ray source characteristic line. It does not require consumable gases or high-temperature operations improving the analyzer’s robustness and reliability.

The main features of the Sindie ® 7039 benchtop petroleum analyzer include:

Direct measurement without sample conversion; Analysis in ppm (wt)

LOD: 0.15 ppm

Dynamic Range: 0.15 ppm to 3000 ppm

Outstanding linearity: One calibration for diesel and gasoline matrices over full dynamic range

Fast measurement time: 300 seconds

No consumable gases required

Extremely low maintenance

Autosampler utilizes XOS Accu-Cell cup

MWD XRF
Monochromatic Wavelength Dispersive X-Ray Fluorescence (MWD XRF) utilizes state-of-the-art focusing and monochromating optics to increase excitation intensity and dramatically improve signal-to-background over high power traditional WD XRF instruments. This enables significantly improved detection limits and precision and a reduced sensitivity to matrix effects. A monochromatic and focused primary beam excites the sample and secondary characteristic fluorescence x-rays are emitted from the sample. A second monochromating optic selects the sulfur characteristic x-rays and directs these x-rays to the detector. MWD XRF is a direct measurement technique and does not require consumable gasses or sample conversion.

Sindie +Cl is a two-in-one instrument enabling trace analysis of both sulfur and chlorine with one push of a button. It is the ideal solution to certify sulfur levels in finished products, assess chlorine for corrosion mitigation, and optimize process parameters.

Application Areas:

Total sulfur analysis from ultra low sulfur fuels to crudes.

Total chlorine analysis from aqueous solutions and aromatic products to heavy fuels, crudes, and catalyst.

For use in refinery labs, pipeline terminals, additive plants and inspection laboratories.

Trusted Precision
Using the industry’s most advanced optics, doubly curved crystals, Sindie +Cl achieves a high signal-to-background ratio for the most reproducible results. Monochromatic Wavelength Dispersive X-Ray Flourescence (MWDXRF) using doubly curved crystal optics has the advantage of very high sensitivity and precision. This technique has been successfully used to deliver very precise measurements of low levels of sulfur and chlorine.

The Clora Benchtop analyzer is designed for use with liquid hydrocarbons such as aromatics, distillates, heavy fuels and crude oils, as well as aqueous solutions. The enhanced precision of Clora is ideal for testing related to catalyst poisoning in reformers or for sites with fluid catalytic crackers and hydrocrackers monitoring very low levels of chlorine.

MWD XRF

Monochromatic Wavelength Dispersive X-Ray Fluorescence (MWD XRF) utilizes state-of-theart focusing and monochromating optics to increase excitation intensity and dramatically improve signal-to-background over high power traditional WD XRF instruments. This enables significantly improved detection limits and precision and a reduced sensitivity to matrix effects. A monochromatic and focused primary beam excites the sample and secondary characteristic fluorescence x-rays are emitted from the sample. A second monochromating optic selects the chlorine characteristic x-rays and directs these x-rays to the detector. MWD XRF is a direct measurement technique and does not require consumable gasses or sample conversion.

From crude oil to bio-fuels in additives or water, the Phoebe® Bench-Top Analyzer delivers unprecedented precision and accuracy for quantification of phosphorus analysis. Based on XOS’s MWD XRF analytic platform, (as found in Sindie ® and Clora ®analyzers) Phoebe ® offers a LOD of 0.4 ppm in hydrocarbon matrices in a ten-minute measurement cycle.

The analyzer’s extreme ease of use with straightforward touch screen operation allows for use in a broad range of industrial environments. Phoebe ® is a “plug it in and measure” analytical solution and does not require extensive sample preparation, consumable gasses or sample conversion.

MWD XRF

Monochromatic Wavelength Dispersive X-Ray Fluorescence (MWD XRF) utilizes state-of-the-art focusing and monochromating optics to increase excitation intensity and dramatically improve signal-to-background over high power traditional WD XRF instruments. This enables significantly improved detection limits and precision and a reduced sensitivity to matrix effects. A monochromatic and focused primary beam excites the sample and secondary characteristic fluorescence x-rays are emitted from the sample. A second monochromating optic selects the phosphorus characteristic x-rays and directs these x-rays to the detector. MWD XRF is a direct measurement technique and does not require consumable gasses or sample conversion.
Technical Data

From gasoline to ethanol and toluene, the Signal benchtop analyzer delivers unprecedented precision and accuracy in quantitative analysis of silicon in petroleum. The analyzer is based on XOS’s MWDXRF technology platform (as applied in Sindie® and Clora® analyzers) ensuring a robust analysis solution for demanding petroleum and industrial evironments.

Determine your Si baseline for future specifications set by ASTM or the end user.

MWD XRF
Monochromatic Wavelength Dispersive X-Ray Fluorescence (MWD XRF) utilizes state-of-the-art focusing and monochromating optics to increase excitation intensity and dramatically improve signal-tobackground over high power traditional WD XRF instruments. This enables significantly improved detection limits and precision and a reduced sensitivity to matrix effects. A monochromatic and focused primary beam excites the sample and secondary characteristic fluorescence x-rays are emitted from the sample. A second monochromating optic selects the silicon characteristic x-rays and directs these x-rays to the detector. MWD XRF is a direct measurement technique and does not require consumable gasses or sample conversion.

HD Maxine ® assures precise determination of trace metals in crudes, lubricants and used oils without extensive sample preparation or expensive consumables. The analyzer enables the direct analysis of metals from Phosphorus to Lead, at unprecedented detection limits in a robust analyzer configuration designed to perform in demanding petroleum and industrial environments.

In the lab, in the process, in the field – the CALIDUS Gas Chromatograph is fast becoming the leading choice for GC applications in a wide variety of industry and environmental applications.

With the ultrafast, ultra-user-friendly, highly durable, practical, reliable and economical CALIDUS GC you will find more measurement solutions faster and easier, produce better quality products, increase productivity and profitablity, with far less hassle and environmental impact.

Whether you are directly involved in fuel characterizations or not, the new D7798 method is important to you. If you are directly involved in fuel characterizations, D7798 is vitally important to your industry. This ultrafast method can perform simulated distillation nearly 6 times faster than the previous method (D2887).

Crude oil is a valuable and vital resource in our lives. Crude is refined to create fuels, petrochemicals and further refined chemicals that are processed into many widely used industrial and consumer products.

With its patented modular columns and detectors platform, application range is second only to analytical speed in the list of CALIDUS GC advantages.

Designed to provide accurate and reliable measurements for a
variety of the applications commonly found in the Oil and Gas
industry. The Model 131 design offers many features while still
offering a level of simplicity, affordability and reasonable delivery
times that many end-users desire.
Envents capability to provide customized sample conditioning
systems, integration services and the necessary analytical
accessories makes the Model 131 an excellent choice for many
analytical process measurement requirements.
Specifications

Start or stop analyses and calibration cycles.

Generate and save current and historical analysis, raw data, and calibration reports.

Designed to provide accurate and reliable measurements for a
variety of the applications commonly found in the Oil and Gas
industry. The Model 132 design offers many features while still
offering a level of simplicity, affordability and reasonable delivery
times that many end-users desire.
Envents capability to provide customized sample conditioning
systems, integration services and the necessary analytical
accessories makes the Model 132 an excellent choice for many
analytical process measurement requirements.

Specifications

Start or stop analyses and calibration cycles.

Generate and save current and historical analysis, raw data, and calibration reports.

Review and modify analytical settings.

Upload and display multiple chromatograms for comparison.

Upload, download and display months of archived data.

Setup independant automated stream switching.

Applications Areas

Diverse stream compositions with dynamic ranges from percent to
trace level measurement all encompassed in one GC.
Typical Applications Include:

Porla Analyser can analyse heavy and crude oils that cover extremely wide viscosity and asphaltene content ranges from very high to very low. Very often, low asphaltene content oils cause blending and process problems. In addition, the new Porla has an analysis programme for blending the parameter of asphaltene free oils and blend components. Furthermore, Porla is perfectly suited to the analysis of bitumen. Porla will report a comprehensive set of stability and compatibility parameters such as P-value, Pa, Po, FR5/1(toluene/xylene equivalent), FRmax, In and Sbn all in one operation. As a result of the exceptionally wide applicability area, Porla will result in the biggest benefits and profitability increases to end-users.

The unique detector technology of New Generation Porla, based on the reflection of asphaltene sensitive light, facilitates the applying of a low dilution of oil samples, resulting in the accurate analysis of oils containing as little as 0.1% asphaltene and sometimes even lower. Other particles besides asphaltenes, such as coke, do not disturb the Porla analysis. Therefore, the removal of coke prior to analysis is not necessary.

New Generation Porla is a very useful and practical tool for planning and monitoring the blending of feedstocks/crude oils, heavy oil blending (from cracking bottoms and solvents), the blending of bitumen and optimisation of cracking units (e.g. thermal and hydrocracking) of oil refineries. In addition, New Generation Porla can also be used for monitoring visbreaking processes and the dilution of tar sands with light ends in the production fields of tar sand crudes.

We have made the New Generation Porla operation easy for end-users. Operation of the analysis programme is very simple and easy. The programme gives default values to the operator to prepare the stock solution, and there is no need to prepare more than one stock solution from oil to be analysed and an aromatic solvent.

We offer strong application development support for Porla end-users when commissioning the analyser at a customer site/laboratory. Our expert will remain at the customer’s laboratory for 4-5 days to give user-training and run a wide range of oil samples with the operator, which can be analysed in the laboratory. He will also give instructions concerning sample preparation and the running parameters of these oils. As a result of this service, the end-user has ready applications for different oil types and an understanding on how to built applications for possible new oil types. This service will ensure a smooth start for new Porla end-users.

Sometimes, some new oils to be analysed might seem challenging or the analysis results may look a bit peculiar. For those situations, we have a special service for our Porla users. The only thing the Porla end-user needs to do is send a sample to our application laboratory in Finland. We will analyse the sample free of charge in our laboratory, report the results and give instructions on how the oil sample can be prepared and successfully analysed in the future. The only cost that the end-user must pay is the transportation of the sample to our laboratory.

The DR5 is a cold properties analyzer. A unique interchangeable cartridge system allows cloud, pour, and CFPP on the same machine. The DR5 is single position. There are three types of cartridges: cloud, pour, and CFPP. Each DR5 comes with a single cartridge. Upon ordering, please specify which cartridge type to include. Additional cartridges can be bought as accessories. The DR5’s state-of-the-art cooling system allows temperatures from -120°C to 60°C. It cools at a rate of 1° C in 5 seconds or less. It maintains temperature of +- 1°C.

Features

Low consumption.

No calibration required.

Cloud, pour, and CFPP on a single machine.

Only 11 inches wide.

High resolution, tablet-style touchscreen.

Fully contained, maintenance-free refrigeration system.

View current test in real-time from a PC, tablet, or smartphone via wifi or ethernet.

Easily export test data to LIMS, flash drive, or web browser.

Print tests from machine.

In addition to standard tests, the machine can be set to maintain a certain temperature, which is convenient for various lab activities. Note: “Plunge Style” indicates a large initial drop in temperature and then maintaining that temperature. This allows for faster test results. It gives an approximation of the test result but is no substitute for ASTM tests. This was provide via customer request.

Apparatus to determine the cloud and pour point manually conform ASTM D97 and ASTM D2500. The TLC adjustable circulator bath with position for six jackets. The pour point describes a procedure for testing the fluidity of a petroleum product at a temperature. The cloud point is defined as the temperature of a liquid specimen when the smallest observable cluster of wax crystals first appears upon cooling.

Complete ASTM D1298 set-up for three positions (including frame, cylinders, lids, tubing, connectors and TLC15-5 circulator). The set-up has a small footprint, detachable leakage tray and is easy to drain and clean. The set-up is made from stainless steel and offers complete sight over full hydrometer length.

This test method covers the determination of the relative density and density of semi-solid bituminous materials, asphalt cements, and soft tar pitches by use of a pycnometer. The sample is placed in a calibrated pycnometer. The pycnometer and sample are weighed, then the remaining volume is filled with water. The filled pycnometer is brought to the test temperature, and weighed. The density of the sample is calculated from its mass and the mass of water displaced by the sample in the filled pycnometer. The bath has place for nine pycnometers.

The Density4 and Density5 density meters continue providing robust and reliable analytical analysis for the needs of many industries. With the push-of-a-button this instrument provides accurate density measurements of liquids for analysis and quality control. Condensed into a compact, robust, stand-alone unit, this density meter is a reliable workhorse for the laboratory, resisting damage from demanding applications. Instruments feature an exclusive plug and play replaceable pre-calibrated measurement cell exchange for the lowest maintenance costs and shortest downtime. These density meters easily combine with AR Series refractometers, AR9 and AR5, and polarimeters, Polar2 and Polar3, for the simultaneous determination of measurements.

Tehnical Data

Density4

Density5

Measuring Range

0-3 g/cm3

0-3 g/cm3

Temperature Range

5-95°C Peltier thermostat

5-95°C Peltier thermostat

Pressure Range

0-10 Bar (0-145psi)

0-10 Bar (0-145psi)

Density

Accuracy

0.0001g/cm3

0.00005g/cm3

Resolution

0.0001g/cm3

0.00001g/cm3

Reproducibility

0.0002g/cm

0.00002g/cm

Temperature

Accuracy

0.05°C

0.03°C

Reproducibility

0.02°C

0.01°C

Minimum Sample Amount

2ml

2ml

Measuring time per sample

< 10 sec.

< 30 sec.

Filling

Injection

Injection

Interfaces

USB and RS232

USB and RS232

Compliancy

European and American Pharmaceutical, GMP/GLP and 21 CFR Part 11, ATSM, ISO and DIN standards

European and American Pharmaceutical, GMP/GLP and 21 CFR Part 11, ATSM, ISO and DIN standards

TB30 bath with temperature range from ambient to 80°C, 230V-50Hz~60Hz, temperature stability ± 0.02°C. Bath is conform ASTM D1838, EN/ISO 6251, IP411, BS2000 Part 411, BS6924, NF M41-007 and is specifically designed to hold a temperature stable at 37.8°C without the use of an external circulator. The bath is deep enough to accommodate four corrosion test cylinders in an upright position.

TC16 circulator with temperature range from ambient to 250°C, 230V-50Hz~60Hz, temperature stability ± 0.02°C. Bath conforms to ASTM D4814, ASTM D7667, ASTM D7671, IP 227, and IP 611. It is equipped with a cover with six holes and lids for six test stations.

Methods specify the determination of the corrosive tendencies towards silver, of aviation turbine fuels, automotive spark-ignition engine fuels, or automotive gasoline. The result is classified as an integer in the range 0 to 4.

TC40 set-up for D849 to determine the corrosiveness to copper from aromatic hydrocarbons. . The set-up consists of a TC40 circulator bath and it is standard delivered with six sets of glassware (250 mL flask and condenser). The cover of the bath has six openings with lids and a leveling platform. Two stand rods with six clamps to hold the glassware in the same position are standartly supplied. The temperature range is from ambient +5°C to 250°C.

The economical AR5 digital refractometer with Peltier temperature control included makes sophisticated measuring technology available to users on a tight budget. High-end accuracy and a good price point give customers an exceptional advantage in the laboratory. The AR5 is precise, measuring refractive index and % Brix with results accurate to 0.0001 RI and 0.05% Brix. The AR5 is the ideal instrument to perform routine measurements with standard scales and has the ability to be configured for custom measurements. The robust design, sapphire prism and reliable operation make it a workhorse for the laboratory, resisting surface damage from demanding applications.

This top of the line refractometer is exceptionally precise with measurement accuracies of 0.00002 refractive index (RI) and 0.02% Brix. With a built-in Peltier thermostat, the AR9 controls the temperature at the sample interface to an accuracy of 0.03°C. This unit is resilient and durable, making it the right choice for all laboratory requirements. As a robust sealed system, the AR9 is able to perform in a variety of environments. This refractometer has the capability to provide measurements for the most critically regulated industries. The AR9 has a YAG (Yttrium Aluminum Garnet) prism, the hardest prism available, guaranteeing accuracy and resilience for years. The Universal Display is included with the AR9 at no charge.

The new modular circular polarimeter Polar2 is designed for analyzing optically active substances. These robust instruments are the most accurate, with a linear response throughout the measurement range.

Advantages

Optimized for pharmaceutical applications

Best accuracy – remains constant throughout measurement range

Exceptional high-quality analysis

Modular concept to grow with requirements

Different T-Cell polarimeter tubes for normal or small volumes

Self-calibration automatic wavelength control (AWC)

Multiple wavelength option

Continuous reading

Low maintenance

Compliant to international standards, GLP/GMP conformity and 21 CFR Part 11 ready

For application in universities, technical colleges for training students.

The solvent circulates between extraction vessel, evaporator and condenser. The solid matter in the extraction vessel is continuously rinsed with purified solvent until all solubles are leached out of the solid matter.

The solvent, which is charged with the extract, flows from the extraction vessel into the evaporator, where the extract will be collected and concentrated.

After terminating the leaching process, a further purification of the extract by evaporation is possible.

The system is designed for batch (discontinuous) operation but can also be operated semi-continuously.

The standard system can be operated either for vacuum operation or overpressure operation as well.

The system can be designed either in glass, stainless steel or other material, depending on the application.

The following modes of operation can alternatively be carried out :

Extraction with continuous flow of solvent

Extraction by periodic flooding of the extraction vessel and subsequent draining through siphon action (Soxhlet principle)

This mixer-settler apparatus has been designed to study liquid-liquid-extraction processes. One part of the component, which has to be separated from the liquid phase (raffinate phase) is extracted by means of a liquid solvent (extract phase). This component is concentrated in the solvent (extract phase from the extraction phase to extraction phase). The raffinate phase and the extract phase will be led through the system in opposite directions. The advantage of the mixer-settler apparatus is the high efficiency of the exchange stages.

The latest re-design of EMS 250 SR liquid-liquid extractor consists of a 10-stage Mixer-Settler arrangement to work simultaneously.

Each stage consists of a mixer with downstream settler. In the mixer the light and the heavy phase from the neighbouring stages are brought together, are intensively mixed and then simultaneously conveyed into the settler. The mixing is realized by motor driven spiral stirrers for each mixing stage. Due to the intensive mixing the phases are divided into drops, so that the greater exchange surface, the substance transfer from one phase to another is heavily intensified.

Together with the component to be extracted, e.g. heavy phase, the raffinate phase is pumped from the raffinate store into the mixer of the last stage of the extractor. The solvent, e.g. light phase is pumped from the corresponding store tank into the mixer of the first stage of the extractor. Both phases, raffinate and extract are led into opposite directions through the extractor, the raffinate phase from the last stage and the extract phase from the first to the last extraction stage.

On it’s way through the apparatus the component which is to be extracted, is increasingly separated from stage to stage. Simultaneously the solvent stream (extract phase) absorbes more and more of the extracted component. The raffinate phase from which the component has been extracted, leaves the extractor at the first stage and is collected in a collecting vessel. The extracted phase leaded with the extracted component leaves the extractor at the last stage and is collected in a collecting vessel.

Contrary to other separation methods, the extraction will not directly lead to pure components. The extract phase is e.g. to be separated in a downstream distillation/rectification into extracted component and solvent.

This extraction process has the advantage of a low energy consumption for the separation of various compounds of liquid mixtures and is ideally applicable for demonstration purposes as well as for studying liquid-liquid extraction fundamentals in research and education.

Universal apparatus for thin-film evaporation for lab-scale and pilot-scale application, complete with all necessary accessories for continuous operation.
Rotary thin-film evaporator with thermostat mantle and external condenser.
The model TF 650 is excellently suited for universal lab-scale and pilot-scale application and is completely equipped with all necessary accessories for the continuous operation.
Technical Data

Portable ozone generators especially suited for reliable laboratory and pilot plant application; for oxygen and dried air as feedgas.

High ozone concentration in oxygen.

The ozone generating module is made of inert material and is build together with the power supply and the instrumentation into a 19” aluminium housing (protection class IP 42) with air cooling.

The gas flow is adjustable at the needle valve of the flow meter. The electrical power consumption is shown at the LCD display. The ozone concentration can be regulated between 5 and 100 % by means of an electrical controller or an external signal.

The OZON analyzer OPF 200 is an accurate UV-photometer for the continuous measurement of the ozone concentration in the range 0 – 200 g/m3 in the gas phase.

The UV-system allows a measurement at 254 mm wavelength according DIN and IOA-Standard without any cross selection to other gas species. The instrument needs no moving parts and consists of single beam photometer. The UV-lamp has a very stable intensity and has to be replaced every 24 months.

The analyser consists of an internal catalyser for the destruction of ozone in the sample flow.

The unit is especially suited for ozone measurements at the output of ozone generators resp. ozone producing systems.

A truly versatile Coulometric Karl Fischer Titrator for water content determination of gases, liquids and solids. The Aquamax KF PLUS is a small foot print titrator with a full numeric keypad for data entry and results manager software for data storage and retrieval. As well as being a stand-alone instrument, this titrator can be combined with accessories such as an Oil Evaporator or a Solids Evaporator system.

Aquamax KF Reagent A is a general coulometric KF anolyte for use with generator electrodes which incorporate a frit or diaphragm to separate the anode and cathode chambers. Used in conjunction with Aquamax KF Reagent C this formulation is supplied in a pack of 8 x 100ml bottles and 8 x 5ml cathode ampoules, all conveniently located in a single carton. This UN certified carton can be used to transport these reagent packs by road, rail, sea and air and the total pack volume is less than one litre so they can be shipped as limited quantity.

To conform to ASTM, API, EI, ISO (plus other) methodologies for water content determination of oil and petroleum products, the anode regent must be modified with xylene to improve sample solubility and miscibility. Aquamax KF Reagent A is pre-cut with xylene, and other solubilizers to eliminate side reactions, so that the operator does not have to store or mix chemicals.

We conducted extensive comparison trials of Aquamax KF Reagents against other leading brands with very positive results. Using water standards ranging from 10 µg water up to 10,000 µg water under controlled conditions we found Aquamax KF Reagent to be equivalent in perfomance accuracy to the other brands but much faster in titration speed and with low background drift value.

The Lab Sulfur Sentry utilizes field proven tape based technology that
provides a linear and interference-free output of H2S for laboratory
applications. Available for hydrogen sulfide and total sulfur (optional)
in gas measurements, and for total sulfur in hydrocarbon liquids with
the addition of the syringe injector/total sulfur conversion option.
Specifications

No interference from other components in the sample

Low power consumption < 3 Watts

Measures up to 5 times the calibrated range.

Full field service & training available

I.C.E. (Integrated Configuration Environment) is a Windows® based program that accompanies all 3308 Analyzers for full configurability.

This Model 331S Transportable is designed as a temporary H2S
analyzer solution. The 331S utilizes field proven tape based
technology that provides a linear and interference-free output of H2S.
Certified for Class I, Div 2, Groups A, B, C and D.

The Model 331S H2S Analyzer utilizes field proven tape based
technology that provides a linear and interference-free output of H2S.
An optional Total Sulfur measurement can be added to the analyzer.
Certified for Class I, Div 2, Groups A, B, C and D.

The Model 331SDS H2S Analyzer utilizes field proven tape based
technology that provides a linear and interference-free output of H2S
on two streams simultaneously. An optional Total Sulfur measurement
can be added to the analyzer as one of the streams. Certified for
Class I, Div 2, Groups A, B, C and D.

This uniquely rugged and simple design by Envent utilizes a lead acetate
based detection system that provides a linear and interference-free output
of H2S or optional Total Sulfur concentration.
Specifications

A transportable system that can measure H2S in natural gas anywhere you need it. This uniquely rugged and simple design by Envent utilizes a lead acetate-based sensoring system that provides a linear and interference-free output of the H2S concentration.
Specifications

The Model 330S H2S Analyzer utilizes field proven tape based
technology that provides a linear and interference-free output of H2S.
An optional Total Sulfur measurement can be added to the analyzer.
Certified for Class I, Div 1, Groups C and D (Group B available).

The Model M60 is designed to monitor PPM and percent level O2
concentrations in natural gas applications. An electrochemical O2
sensor is incorporated into the design of the instrument. The M60
can be included as an additional measurement with other Envent
analyzers, or can be offered as a stand-alone analyzer with an
intergrated sample conditioning system.
Specifications

Electro-chemical sensor.

Dual alarm outputs.

Two line LCD display.

4-20 mA output.

RS-232 and RS-485 configurable Modbus communications.

Quick delivery.

Full service and Training.

Available with differing sample systems and accessories as required in various applications.

The Model M90 is designed to monitor percent level CO2 concentrations in natural gas applications. An infrared, dual-beam technology is incorporated into the design of the instrument. The
M90 can be included as an additional measurement with other
Envent analyzers, or can be offered as a stand-alone analyzer with
an integrated sample conditioning system.
Specifications

Dual-Beam NDIR Technology.

Long-term stability.

Low power consumption (2 watts).

Dual alarm outputs.

4-20 mA output.

RS-232 and RS-485 Modbus communications.

Two Adjustable set point control relays.

Quick delivery.

Full service & training.

Available with differing sample systems and accessories as required in various applications.

The M90 dual-beam infra-red carbon dioxide detection systemcontinuously measures and corrects for the short and long-termconcentration changes that caused measurement errors in first
generation (single beam) carbon dioxide sensors.

Application Areas

CO2 is measured routinely in natural gas for product quality and process control purposes. Common ranges are from 0-5% for sales gas and up to 0-30% for inlet CO2 concentration.

Gas plant Inlet.

Certain H2S-removal chemical processes can be fine-tuned by CO2 slipstreaming.

The TFS1 is an all optical analytical platform using a Precisive
TFS (tunable filter spectroscopy) infrared sensor from MKS
Instruments. The TFS1 offers a multi-component gas analysis at
unparalleled speed. The standard Envent TFS1 measures
methane, ethane, propane, iso-butane, iso-pentane and a
combined measurement for (n-butane, n-pentane and n-hexane),
as well as % level CO2 and H2S.
The spectrometer utilizes a tunable Fabry-Perot assembly that
provides wavelength scanning along with advanced spectral
processing that can produce response times as fast as 1 to 10
seconds. Additional measurement options are available
depending on the application. This includes component analysis
for the HPI market such as ethylene, propylenes, and butenes
(Canada, Mexico and Middle East). Sampling is with a flowthrough
cell, suitable for continuous, online, unattended operation.
The analyzer does not require carrier gas, fuel gas or on-site
calibration gas. The standard Envent system configuration
provides measurements of up to 100% methane, 25% ethane,
25% propane, 10% butanes and 5% pentanes, 100% H2S and
100% CO2. Diatomic compounds such as nitrogen, oxygen and
hydrogen are not measured directly and are combined and
reported as one group of unmeasured inert gases.

The TFS2 is an all optical analytical platform using a Precisive
TFS (tunable filter spectroscopy) infrared sensor from MKS
Instruments. The TFS2 offers a multi-component gas analysis at
unparalleled speed. The standard Envent TFS2 measures
methane, ethane, propane, iso-butane, iso-pentane and a
combined measurement for (n-butane, n-pentane and n-hexane),
as well as % level CO2 and H2S.

The spectrometer utilizes a tunable Fabry-Perot assembly that
provides wavelength scanning along with advanced spectral
processing that can produce response times as fast as 1 to 10
seconds. Additional measurement options are available
depending on the application. This includes component analysis
for the HPI market such as ethylene, propylenes, and butenes
(Canada, Mexico and Middle East). Sampling is with a flowthrough
cell, suitable for continuous, online, unattended operation.
The analyzer does not require carrier gas, fuel gas or on-site
calibration gas. The standard Envent system configuration
provides measurements of up to 100% methane, 25% ethane,
25% propane, 10% butanes and 5% pentanes, 100% H2S and
100% CO2. Diatomic compounds such as nitrogen, oxygen and
hydrogen are not measured directly and are combined and
reported as one group of unmeasured inert gases.

The TFSP is an all optical analytical platform using a Precisive
TFS (tunable filter spectroscopy) infrared sensor from MKS
Instruments. The TFSP offers a multi-component gas analysis at
unparalleled speed. The standard Envent TFSP measures
methane, ethane, propane, iso-butane, iso-pentane and a
combined measurement for (n-butane, n-pentane and n-hexane),
as well as % level CO2 and H2S.

The spectrometer utilizes a tunable Fabry-Perot assembly that
provides wavelength scanning along with advanced spectral
processing that can produce response times as fast as 1 to 10
seconds. Additional measurement options are available
depending on the application. This includes component analysis
for the HPI market such as ethylene, propylenes, and butenes
(Canada, Mexico and Middle East). Sampling is with a flowthrough
cell, suitable for continuous, online, unattended operation.
The analyzer does not require carrier gas, fuel gas or on-site
calibration gas. The standard Envent system configuration
provides measurements of up to 100% methane, 25% ethane,
25% propane, 10% butanes and 5% pentanes, 100% H2S and
100% CO2. Diatomic compounds such as nitrogen, oxygen and
hydrogen are not measured directly and are combined and
reported as one group of unmeasured inert gases.

Early warning system for harmful algal blooms by determination of cholophyll-a concentration changes.

WHAT ARE ALGAL BLOOMS AND WHY MONITOR THEM?

Algal blooms tend to form in presence of ideal condition of temperature, nutrients and light. Algal blooms become harmful when colonies of algae—simple plants that live in the sea and freshwater—grow out of control while producing toxic or negative effects on people, fish, shellfish, marine mammals, and birds.

The human illnesses caused by harmful algal blooms, though rare, can be debilitating or even fatal.

Harmful algal blooms’ occurence are on the rise and are becoming a major environmental concern in many states, not only because they affect the health of people and marine ecosystems, but also the prosperity of local economies.

DOC concentrations greater than 5 mg/L will complicate water treatment and may result in disinfection by-products and water with less than 2 mg/L of DOC tend to be easily treated for disinfection by-products and do not increase finished water colour.

WHY DISSOLVED ORGANIC MATTERS MUST BE MONITORED?

Dissolved organic matter (DOM) does not pose health risk itself but may become potentially harmful when in combination with other aspects of water.

DOM reacts with disinfectants such as chlorine to form potentially carcinogenic byproducts called trihalomethanes. Trihalomethanes may have long-term effects on health and they should be considered when chlorinating drinking water high in DOM.

DOM interacts with organic/inorganic contaminants and affects their transport, stability and bioavailability. Moreover, most pesticide models require DOM as one of the main parameter inputs. DOM can also promote the growth of microorganisms by providing a food source.

Organic material in water can cause aesthetic problems such as an unpleasant taste, odour and colour.

Onsite installation for DOM monitoring during May 2015 to May 2016 (Location: Estonia)

Fluo-Imager™ is a multipurpose spectral analyser aimed at the express detection and identification of organic compounds in liquid samples. Its operation is based on the techniques of spectral fluorescence signatures (SFS) and pattern recognition. With these techniques different compounds in a mixture can be identified and quantified without the physical separation of individual substances in a sample.

Fluo-Imager™ is capable of performing both absorption spectra measurements and capture SFS simultaneously.

Features

Combined Fluorescence & Absorption

Measurements

Purpose-Built SFS Library

Multi-Parameter Detection & Identification

Continuous Background Correction

No Chemicals Required

Spectral Fluorescence Signatures

The principle of SFS is based on the measuring of the fluorescence intensity of a sample at different excitation and emission wavelengths. The intensity of light induced fluorescence as a function of excitation and emission wavelengths constitutes a 3-dimensional fluorescence matrix of the sample. Such matrix is called the Spectral Fluorescence Signature.

Since various chemical substances have different characteristic excitation and emission spectra of fluorescence, they typically produce different spectral patterns in SFS, which are used for substance identification. The intensity of fluorescence serves as a measure of substance quantity.

Fluo-Imager™ is a multipurpose spectral analyser aimed at the express detection and identification of organic compounds in liquid samples. Its operation is based on the techniques of spectral fluorescence signatures (SFS) and pattern recognition. With these techniques different compounds in a mixture can be identified and quantified without the physical separation of individual substances in a sample.

Fluo-Imager™ is capable of performing both absorption spectra measurements and capture SFS simultaneously.

Features

Combined Fluorescence & Absorption

Measurements

Purpose-Built SFS Library

Multi-Parameter Detection & Identification

Continuous Background Correction

No Chemicals Required

Spectral Fluorescence Signatures

The principle of SFS is based on the measuring of the fluorescence intensity of a sample at different excitation and emission wavelengths. The intensity of light induced fluorescence as a function of excitation and emission wavelengths constitutes a 3-dimensional fluorescence matrix of the sample. Such matrix is called the Spectral Fluorescence Signature.

Since various chemical substances have different characteristic excitation and emission spectra of fluorescence, they typically produce different spectral patterns in SFS, which are used for substance identification. The intensity of fluorescence serves as a measure of substance quantity.

Remote Optical Watcher
Autonomous non-contact sensor for detection of oil on water and land Highly accurate, easy to maintain, fi nds oil spills early so you can respond before things get out of hand.

24/7 Operation Even in Harsh Environments
Day or night, in arctic cold or scorching heat, ROW helps you pinpoint the polluter, take action, and avoid lasting damage. Available in anodised aluminium, 316 stainless steel and now Exd enclosures for even the toughest environments.

Pressurized for Your Protection
Pressurized with inert nitrogen, ROW has been built to be a neutral observer.

Sold Globally, Serviced Locally
We can ship the product anywhere in the world, safe in the knowledge that it will work. On-site service is provided by our local partners, ensuring timely and competent care for your ROW system. Where needed, LDI specialists in Estonia can be reached for consulting and feedback.

How ROW WorksThe Science
To detect oil slicks as thin as a single micron from up to 10m above the water, ROW pulses a UV beam at the surface and excites any oil molecules in the target area. Using oil’s native fluorescence, ROW identifies
tell-tale substances and alerts the site operator. After 20 years of developing remote-sensing systems we’ve probably mastered the technology better than anyone else.

Full Autonomy
In most cases, ROW will operate on wired power and data lines. However, for full autonomy in hard-to-reach locations, optional solar panels and wireless setups are available.

Monthly fuel exchange test results over the past decade from ASTM and the Energy Institute have demonstrated that the IQT™ combustion pressure recovery ignition delay is highly correlated to the ASTM D613 cetane number (CN). The Test Method can accurately measure the ignition delay of a wide range of middle distillate fuels over the entire cetane number scale including conventional diesel fuels, oil sands-based, biodiesel, refinery streams, specialty fuels, as well as fuels with nitrate-based and oxygenate-based cetane improver additives.

Based on a model developed from well characterized ASTM NEG fuel remnants (see reference 1), the IQT™ results are displayed in real time in ignition delay and derived cetane number (DCN) formats. The test sequence is completely automated and is performed in under 20 minutes (including sample and system preparation). Test results and statistical analysis are printed at the end of each test, permitting the operator to quickly read the computerevaluation of test validity.

Accurate monitoring of corrosion rates in any environment is critical when viewed in terms of the maintenance and repair costs associated with corrosion and material failure. Test coupons provide an inexpensive means of on-line monitoring that will allow you to effectively measure the corrosivity within your system. By observing the mils-per-year corrosion rate of an exposed coupon, valuable information can be provided regarding the material’s life expectancy. Biolab can make coupons in any size, shape, or material you need. Coupons can be stenciled with alloy and sequence numbers for proper identification. Mill test reports, identifying element compositions of materials used, are provided on all orders. The following coupons are four of the most commonly used in corrosion testing.

Finishes

Mill - finished as produced from mill.

Glass Bead - blasted with fine glass beads to remove mill scale.

120 Grit - fine finish using a 120 grit belt. Commonly used in corrosion tests, such as pitting studies, where
smooth surface finish is desired. Finishes up to 600 grit (extremely fine) can be provided.

When placing your order for coupons, be ready to provide the sales person with information regarding the type of material you are testing, the size coupons required, surface finish desired, and if applicable, mounting hole size and location. The following options are available:

Manufacturing on time and material basis

Samples mounted on test racks and ready for installation

Preweighing - coupons are cleaned, preweighed on an electronic scale, and individually packaged

Biolab carries a variety of standard pipe plug coupon holders for flat and cylindrical specimens. We can design and make these assemblies to meet your specifications for size and material requirements.

Pipe Plug Assemblies for Flat Coupons

P/N

Plug Size

3” (Std.) Stem

Used with Coupon P/N

RC12E*100036

3/4” NPT

Nylon

CO102, CO117

RC13E*100036

1” NPT

Nylon

CO102, CO117

RC12Q*100036

3/4” NPT

Teflon

CO102, CO117

RC13Q*100066

1” NPT

Teflon

CO102, CO117

RC12E*010036

3/4” NPT

Nylon

CO100, CO103, CO115

RC13E*010036

1” NPT

Nylon

CO100, CO103, CO115

RC12Q*010030

3/4” NPT

Teflon

CO100, CO103, CO115

RC13Q*010026

1” NPT

Teflon

CO100, CO103, CO115

RC12E*030036

3/4” NPT

Nylon

CO118, CO120

RC13E*030036

1” NPT

Nylon

CO118, CO120

RC12Q*030036

3/4” NPT

Teflon

CO118, CO120

RC13Q*030035

1” NPT

Teflon

CO118, CO120

RC12E*090036

3/4” NPT

Nylon

CO105, CO106

RC13E*090036

1” NPT

Nylon

CO105, CO106

RC12Q*090036

3/4” NPT

Teflon

CO105, CO106

RC13Q*090036

1” NPT

Teflon

CO105, CO106

RC11E*010036

3/4” NPT

Nylon

CO100, CO103, CO115

Pipe Plug Assemblies for Cylindrical Coupons

P/N

Carbon Steel Plug

Insert

# of Stems

PA2080709413

2” NPT

Nylon

8

PA2080783413

2” NPT

Teflon

8

RC11E3040000

1/2” NPT

Nylon

1

RC12E3040000

3/4” NPT

Nylon

1

RC13E3040000

1” NPT

Nylon

1

Bypass Piping Systems

We provide conventional or custom-designed bypass systems for on-line corrosion monitoring. Commonly used in the industrial water treatment industry to determine the corrosive properties of potable or cooling water, these systems are available in PVC, carbon and stainless steels, and other materials.

Bypass systems are easily installed to your existing piping. Normally, all you need is a 1” NPT male fitting on which to attach the bypass. Standard bypass systems come equipped with 4 pipe plug assemblies, 4 pre-weighed mild steel coupons, and a 5-gpm flow control valve.

Adjustable Coupon Holders

Low Pressure or Hand Insertable systems can be used for pressures up to 125 psi. This assembly is commonly used in the water treating industry for coupon insertion through a full port valve. An example of this is in a municipal water pumping station, where leakage during withdrawal of the test coupon would not be critical.

Retractable Coupon Holders

Packing Gland systems are used in more demanding environments, where ratings up to 1,500 psi are required and leakage is prohibited. These systems do not require line (process) shutdown to insert or withdraw coupons. The assembly is used for coupon insertion through at least a 1” full port valve. A safety chain is provided to prevent accidental ejection.

Retrievable Coupon Holders

These coupon holders are used with High Pressure Access Systems where pressure ratings up to 3,600 psi are required.

Corrosion rates can vary between welded and non-welded metals, therefore it is advisable to study the behavior of both conditions. Studies involve examination of the parent material, the heat affected zone, the weld metal, and the interfaces between all metals involved. The surface effects produced by welding, heat-tint formation or oxidation, fluxing action of slag, and the deliquescence of slag can be important factors in the corrosion behavior of metals.

Ideally, the coupon used should be the same thickness and welded with the same welding process as the material used in the production equipment. Usually this is not practical so a representative sample must be studied.

Welded coupons can be prepared with or without the use of filler metal. The autogenous weld is prepared without the use of filler metal. This type of weld is the most economical method. Autogenous welds are commonly used to evaluate corrosion rates of welded materials and the usage of these materials in corrosive environments. An autogenous weld is produced by GTAW and can be used to test material weldability and gas shield usage, and to set welding parameters.
Autogenous Weld Coupon1. 120 grit standard finish unless otherwise specified.
2. 1/8” nominal thickness.
3. Standard weld is autogenous weld across end (A.W.A.E.). Sanded after weld.

Stress corrosion cracking occurs when tensile stress combines with a corrosive environment to attack a material. Testing for this type of corrosion is critical in storage tanks, pressure piping, and vessels commonly used in chemical processing plants and petrochemical refineries. Biolab can make your stressed samples in accordance with all ASTM standards including G30, G38, G39, and G58 or to your custom specifications.

Biolab offers test racks used to mount coupons and secure them directly to operating equipment or within a process system. Test racks make it easy to evaluate how corrosion would effect differing alloys and material finishes under identical conditions. Rack usage helps eliminate coupon loss which might occur if samples were individually placed in a process flow.

Racks can be fabricated to meet your requirements for material and size. Typical racks are flat bar racks, spool racks, and pipeline insertion racks. Other racks include angle bar racks and outdoor exposure racks. A variety of insulators, washers, and spacers used to isolate coupons can also be ordered separately.

Guidelines for Supporting Specimens

Corrosive behavior of materials subjected to immersion, partial immersion, or vapor phase can have great variance. For this reason, specimens to be tested should be properly positioned. There are several important points to be considered when supporting specimens for exposure:

Each specimen location should be identified by sketch and recorded.

The corrosive media should have access to the coupons.

The test rack should have adequate corrosion resistance to endure the test.

Specimens should be electrically isolated from other metals unless galvanic effects are being studied.

Biolab makes a variety of insulators, washers, and spacers used to isolate test specimens. We also make insulator kits (R5102) that contain an assortment of washers, screws, nuts, and stems. These kits are designed for field use when a variety of insulators are needed. The chart shown here is a general guide to material applications. Call for recommendations on use in hazardous or severe environments.
Material vs. Environment

Biolab provides electrodes compatible with our various probes and instruments, as well as those of most other major manufacturers. Other electrodes not shown here are also available. Electrodes are made from a variety of materials (see Alloys list).

Spectroil Series are easy to use, reliable and the workhorses of commercial and military oil analysis laboratories that require the rapid analysis of wear metals, contaminants and additives in lubricants. It mea... Read More

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... Read More

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The FluidScan® Q1100 provides direct quantitative measurement of a lubricant’s condition and plays an important role in Machine Condition Monitoring (MCM) for proactive and predictive maintenance in Reliabili... Read More

MINIFLASH TOUCH is a uniquely designed flash point tester for the determination of flashpoints of liquids and solids, using the Grabner flash point detection method of measuring the instantaneous pressure increa... Read More

With over 3,500 oil and grease monitors in world-wide use today, InfraCal 2 Analyzers, originally developed by Wilks, have become a standard for the petrochemical industry. These essential tools ensure that oi... Read More

MINIVAP VP Vision is a highly versatile portable vapor pressure tester that features best-in-class precision and a pressure range of 0-2000 kPa. It is the first analyzer that demonstrates excell... Read More

Introducing a more user friendly and robust titrator combined with the latest touch screen/swipe technology. User friendly is a common phrase bounced around in many different industries. It is easy to say but no... Read More

This true atmospheric distillation analyzer is extremely compact, portable and light weight and operates as a fully stand-alone unit. Designed for the quick and accurate quality control in l... Read More

PILODIST 107 is an easy to handele solvent recovery system for extremely pure solvents.
The solvent mixtures are side products of extraction’s, washing processes, chemical and biochemical reactions, chromatographic operations in clinic... Read More

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Following an increasing demand for crude oil distillations to analyze small quantities in a short period of time PILODIST has modified the existing HRS 500 system to be applied for the purpose of crude oil disti... Read More

Processor controlled combined crude oil distillation system for fully automatic operation according to ASTM D-2892 (TBP) and ASTM D-5236 (Potstill). PETRODIST 400 CC is a combination of the following systems:... Read More

Fully automatic crude oil distillation system, processor controlled according to ASTM D-1160 for the determination of boiling ranges of crude oil products under vacuum. The system can be operated in strict acc... Read More

The system has been designed to operate under atmospheric as well as vacuum conditions down to 1 Torr in continuous and discontinuous (batch) mode by using either a circulation evaporator with level sensors or... Read More

From crude oil to bio-fuels in additives or water, the Phoebe® Bench-Top Analyzer delivers unprecedented precision and accuracy for quantification of phosphorus analysis. Based on XOS’s MWD XRF analytic pla... Read More

From gasoline to ethanol and toluene, the Signal benchtop analyzer delivers unprecedented precision and accuracy in quantitative analysis of silicon in petroleum. The analyzer is based on XOS’s MWDXRF technolo... Read More

In the lab, in the process, in the field – the CALIDUS Gas Chromatograph is fast becoming the leading choice for GC applications in a wide variety of industry and environmental applications.
... Read More

Designed to provide accurate and reliable measurements for a
variety of the applications commonly found in the Oil and Gas
industry. The Model 131 design offers many features while still
offering a level of simplicity, affordability and ... Read More

Designed to provide accurate and reliable measurements for a
variety of the applications commonly found in the Oil and Gas
industry. The Model 132 design offers many features while still
offering a level of s... Read More

The DR5 is a cold properties analyzer. A unique interchangeable cartridge system allows cloud, pour, and CFPP on the same machine. The DR5 is single position. There are three types of cartridges: cloud, pour, an... Read More

Apparatus to determine the cloud and pour point manually conform ASTM D97 and ASTM D2500. The TLC adjustable circulator bath with position for six jackets. The pour point describes a procedure for testing the fl... Read More

Complete ASTM D1298 set-up for three positions (including frame, cylinders, lids, tubing, connectors and TLC15-5 circulator). The set-up has a small footprint, detachable leakage tray and is easy to drain and cl... Read More

This test method covers the determination of the relative density and density of semi-solid bituminous materials, asphalt cements, and soft tar pitches by use of a pycnometer. The sample is placed in a calibrate... Read More

The Density4 and Density5 density meters continue providing robust and reliable analytical analysis for the needs of many industries. With the push-of-a-button this instrument provides accurate density measu... Read More

TC40 set-up for D849 to determine the corrosiveness to copper from aromatic hydrocarbons. . The set-up consists of a TC40 circulator bath and it is standard delivered with six sets of glassware (250 mL flask an... Read More

The economical AR5 digital refractometer with Peltier temperature control included makes sophisticated measuring technology available to users on a tight budget. High-end accuracy and a good price point give cus... Read More

This top of the line refractometer is exceptionally precise with measurement accuracies of 0.00002 refractive index (RI) and 0.02% Brix. With a built-in Peltier thermostat, the AR9 controls the temperature at th... Read More

The new modular circular polarimeter Polar2 is designed for analyzing optically active substances. These robust instruments are the most accurate, with a linear response throughout the measurement range.
... Read More

This mixer-settler apparatus has been designed to study liquid-liquid-extraction processes. One part of the component, which has to be separated from the liquid phase (raffinate phase) is extracted by means of a... Read More

Universal apparatus for thin-film evaporation for lab-scale and pilot-scale application, complete with all necessary accessories for continuous operation.
Rotary thin-film evaporator with thermostat mantle and external condenser.
The ... Read More

A truly versatile Coulometric Karl Fischer Titrator for water content determination of gases, liquids and solids. The Aquamax KF PLUS is a small foot print titrator with a full numeric keypad for data entry and ... Read More

The Lab Sulfur Sentry utilizes field proven tape based technology that
provides a linear and interference-free output of H2S for laboratory
applications. Available for hydrogen sulfide and total sulfur (optional)
in gas measurements, and... Read More

This Model 331S Transportable is designed as a temporary H2S
analyzer solution. The 331S utilizes field proven tape based
technology that provides a linear and interference-free output of H2S.
Certified for C... Read More

The Model 331S H2S Analyzer utilizes field proven tape based
technology that provides a linear and interference-free output of H2S.
An optional Total Sulfur measurement can be added to the analyzer.
Certified... Read More

The Model 331SDS H2S Analyzer utilizes field proven tape based
technology that provides a linear and interference-free output of H2S
on two streams simultaneously. An optional Total Sulfur measurement
can be ... Read More

This uniquely rugged and simple design by Envent utilizes a lead acetate
based detection system that provides a linear and interference-free output
of H2S or optional Total Sulfur concentration.
... Read More

A transportable system that can measure H2S in natural gas anywhere you need it. This uniquely rugged and simple design by Envent utilizes a lead acetate-based sensoring system that provides a linear and interference-free output of the H2S ... Read More

The Model 330S H2S Analyzer utilizes field proven tape based
technology that provides a linear and interference-free output of H2S.
An optional Total Sulfur measurement can be added to the analyzer.
Certified... Read More

The Model M60 is designed to monitor PPM and percent level O2
concentrations in natural gas applications. An electrochemical O2
sensor is incorporated into the design of the instrument. The M60
can be included as an additional measuremen... Read More

The Model M90 is designed to monitor percent level CO2 concentrations in natural gas applications. An infrared, dual-beam technology is incorporated into the design of the instrument. The
M90 can be included as an additional measurement wi... Read More

The TFS1 is an all optical analytical platform using a Precisive
TFS (tunable filter spectroscopy) infrared sensor from MKS
Instruments. The TFS1 offers a multi-component gas analysis at
unparalleled speed. The standard Envent TFS1 measu... Read More

The TFS2 is an all optical analytical platform using a Precisive
TFS (tunable filter spectroscopy) infrared sensor from MKS
Instruments. The TFS2 offers a multi-component gas analysis at
unparalleled speed. T... Read More

The TFSP is an all optical analytical platform using a Precisive
TFS (tunable filter spectroscopy) infrared sensor from MKS
Instruments. The TFSP offers a multi-component gas analysis at
unparalleled speed. T... Read More

Fluo-Imager™ is a multipurpose spectral analyser aimed at the express detection and identification of organic compounds in liquid samples. Its operation is based on the techniques of spectral fluorescence sign... Read More

Fluo-Imager™ is a multipurpose spectral analyser aimed at the express detection and identification of organic compounds in liquid samples. Its operation is based on the techniques of spectral fluorescence sign... Read More

Accurate monitoring of corrosion rates in any environment is critical when viewed in terms of the maintenance and repair costs associated with corrosion and material failure. Test coupons provide an inexpensive ... Read More

Stress corrosion cracking occurs when tensile stress combines with a corrosive environment to attack a material. Testing for this type of corrosion is critical in storage tanks, pressure piping, and vessels commonly used in chemical process... Read More

Biolab offers test racks used to mount coupons and secure them directly to operating equipment or within a process system. Test racks make it easy to evaluate how corrosion would effect differing alloys and mate... Read More

Biolab makes a variety of insulators, washers, and spacers used to isolate test specimens. We also make insulator kits (R5102) that contain an assortment of washers, screws, nuts, and stems. These kits are designed for field use when a vari... Read More

Biolab provides electrodes compatible with our various probes and instruments, as well as those of most other major manufacturers. Other electrodes not shown here are also available. Electrodes are made from a variety of materials (see Allo... Read More

Digital, hand-held, menu-driven corrosion meters that take probe measurements and store the data to be later downloaded to a computer for analysis.
Data loggers used to continuously monitor probes in remote locations... Read More